Is space-time fragmented, segmented into quantized bits of information, or causal sets?
Or is space-time smooth and continuous, with curves, bends, and warps; just as Einstein had predicted?
Is what we call space-time even part of objective reality or is it just a mathematical construct that appeals to our perceptions?
The answer could be all of the above depending on our frame of reference. When we apply Temporal Mechanics to Physics, it appears that there are underlying aspects to Relativity that subtly show up in Quantum Mechanics as extra dimensions of time.
Obsolete points-of-view regarding the nature of time and relative frames of reference may be at the center of the mismatch between Quantum Mechanics and General Relativity.
Most physics theories tend to have a unique premise in common: one time dimension. In fact, there is a growing consensus that time is just an illusion.
Yet, applying extra dimensions to time can successfully modify modern physics without violating the conservation laws long held to be true. Modern notions of quantum gravity and curved space-time can successfully be replaced with an infinitude of relative frames of reference, progressing and regressing though infinite series of relations, which imply the existence of multidimensional time.
Last July of 2012, the physics community made a big announcement that a new subatomic particle was showing up at CERN’s Large Hadron Collider (LHC) that fit the description of the elusive Higgs Boson. The discovery of this particle would mean a major victory for theoretical physics and our understanding of the fundamental building blocks of nature.
Two days before CERN’s big announcement, Philosopher Gavin Wince posted a video making predictions of what he believed would show up in the data. To the physics communities’ and his surprise, he was right.
Though the particle was concluded to be a discovery of the Higgs Boson, a very small but significant anomaly was showing up in the data. Shortly after the big announcement, Wince posted another video, titled, “The Higgs Paradox”, where he explains this bizarre glitch.
According to Wince, “If it is assumed that there is one type of Higgs particle, it appears as though it is one particle in two detectors at the same time. However, if it is assumed that there are two types of Higgs particles, caught in some sort of entanglement, then the particles appear to be in the same place at the same time; suggesting one type of Higgs particle.”
In other words, The Higgs appears to be both one particle in two places and two particles in one place; simultaneously.
Though a Higgs-like Boson may have been discovered, certain anomalies about this particle do not match the Standard Model Higgs predictions; specifically issue that match Wince’s predictions. So far, the Higgs-like particle does not appear to be coupling with Fermions such as Leptons and quarks. Additionally, in the ATLAS detector data, there is significant excess in the gamma-gamma channel over the ZZ channel. This same discrepancy shows up in the CMS detect data, however, the excess is reversed! This is what Wince is calling the Higgs Paradox, and it just so happens to fit his model of the Higgs Boson.
Using extra dimensions of time, Wince is able to use a new set of equations that seem to be extinguishing anomalies found in physics data ranging from subatomic particle physics, to astronomy and cosmology.
Since July, the physics community has acknowledged the anomalies in the Higgs particle data and some have even quietly acknowledged Wince’s theories.
Right now, physicists are meeting at the Winter Conference in Italy discussing new data regarding the Higgs-like particle. The data from ATLAS still conforms to Wince’s predictions; the CMS data… well, that’s turned out anomalous itself. The zz-channel data from CMS matched Wince’s predictions, however CMS withheld its data concerning the gamma-gamma Channel. Wince has decided to take this opportunity to put his theories on the line and make a precise prediction about the CMS data before it is released later this week.
If Wince’s prediction is right, that data from CMS will show a discrepancy between the zz-channel and the gamma-gamma channel of more than 1 GeV, then the Higgs Paradox will be an issue stuck with Physicist until 2016 when the Large Hadron Collider is back up and running again.
Can we get a better understanding of what gravity is, assuming mass is a composite of time, as suggested? And, in doing so, can we gain some insight into possible deficiencies in the theory of General Relativity?
The bizarre phenomena of the quantum world, “action at a distance”, can account for the mechanism of gravity, when the Inclusion Principle is included within the definition of Quantum Entanglement.
Acceleration – Temporal Iteration – An Introduction to Temporal Mechanics
Temporal dynamics can be applied to the concepts of mass, acceleration, and force redefining these concepts in terms of temporal composition. From these new insights into basic physics can gravity be better understood?
Assuming mass, classically, to be a negative volume of time, or a negative temporal scalar (3D-time), can peculiar phenomena related to the measurement time, such as acceleration and deceleration, be accounted for using these new definitions?
The Information Paradox is back; stronger than ever! But this time, with teeth!
Information isn’t disappearing, it’s changing histories over time!
Symmetry can change into other symmetrical forms; asymmetry can change into other asymmetrical forms, but symmetry and asymmetry cannot merge into being the same thing without introducing something into the system. In our case, that would be a New physics.
As it stands, super symmetry and string theory are on shaky ground, and the potential for Existics to surpass these great theories, as a working theory of everything, is at hand.
A Brief look into the history of the development of the concepts of Space, Time and how they relate to Mass. Starting in 1715 working up into today, we move from conventional into unconventional examining multidimensional time and its possible relationship with mass.
This philosophy video attempts to answer the age old question:
“What is mass?!”
Could mass simply be a composition of time? Is mass composed of temporal coordinates?